The configuration of one or more barrier layers for encapsulating a device is controlled by setting parameters of atomic layer deposition (ALD). A substrate formed with the device is placed on a susceptor and exposed to multiple cycles of source precursor gas and reactant precursor gas injected by reactors of a deposition device. By adjusting one or more of (i) the relative speed between the susceptor and the reactors, (ii) configuration of the reactors, and (iii) flow rates of the gases injected by the reactors, the configuration of the layers deposited on the device can be controlled. By controlling the configuration of the deposited layers, defects in the deposited layers can be prevented or reduced.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method of depositing a layer on a substrate, comprising: (a) causing a first relative movement between a substrate comprising a device and one or more reactors, a shadow mask placed between the substrate and the one or more reactors; (b) injecting a source precursor onto the device and the substrate by the one or more reactors responsive to causing the first relative movement; (c) diffusing the injected source precursor into a clearance between the substrate and the shadow mask; (d) causing a second relative movement between the substrate and the one or more reactors; (e) injecting a reactant precursor onto the device and the substrate by the one or more reactors responsive to causing the second relative movement; (f) diffusing the injected reactant precursor to replace or react with the source precursor and deposit a layer of first material on the device and the substrate, the layer of the first material extending into the clearance for a first distance; (g) causing a third relative movement between a substrate and one or more reactors; (h) injecting another source precursor onto the device and the substrate by the one or more reactors responsive to causing the third relative movement; (i) diffusing the other injected source precursor into the clearance between the substrate and the shadow mask; (j) causing a fourth relative movement between the substrate and the one or more reactors; (k) injecting another reactant precursor onto the device and the substrate by the one or more reactors responsive to causing the fourth relative movement; and (l) diffusing the other injected reactant precursor replacing or reacting with the other source precursor to deposit a layer of second material on the device and the substrate, the layer of the second material extending into the clearance for a second distance greater than the first distance.
2. The method of claim 1 , wherein a speed of the first relative movement and the second relative movement is the same.
3. The method of claim 1 , wherein the first and second relative movements are linear movements.
4. The method of claim 1 , further comprising repeating (a) through (l) for a predetermined number of times.
5. The method of claim 1 , further comprising repeating (g) through (l) for a predetermined number of times.
6. The method of claim 1 , wherein a speed of the first relative movement and a speed of the second relative movement are the same, a speed of the third relative movement and a speed of the fourth relative movement are the same, and the speed of the first and second movements is different from the speed of the third and fourth relative movements.
7. The method of claim 1 , wherein the substrate passes below the one or more reactors during the first and second relative movements.
8. The method of claim 1 , wherein the substrate and the shadow mask are placed at a pressure at or above 100 mTorr when the source precursor or the reactant precursor is injected.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
October 18, 2011
September 8, 2015
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